J Chem Phys Wang Y, Perdew JP Spin scaling of the electron-gas correlation energy in the high-density limit. Phys Rev B — Article Google Scholar. Energy Environ Sci Catal Rev — Trovarelli A, Fornasiero P Catalysis by ceria and related materials, 2nd edn.
Imperial College Press, London. Book Google Scholar. J Catal — Catal Today — Impact of the support composition on the performance for the preferential CO oxidation reaction. Appl Catal B Environ — Science — Impact of the support composition on the performance in the water-gas shift reaction.
J Phys Chem C — Angew Chem Int Ed Engl — Angew Chemie Int Ed — J Am Chem Soc — Melchionna M, Fornasiero P The role of ceria-based nanostructured materials in energy applications. Mater Today — Mullins DR The surface chemistry of cerium oxide. Surf Sci Rep — Freund H-J, Kuhlenbeck H, Libuda J et al Bridging the pressure and materials gaps between catalysis and surface science: clean and modified oxide surfaces. Top Catal — Paier J, Penschke C, Sauer J Oxygen defects and surface chemistry of ceria: quantum chemical studies compared to experiment.
Chem Rev — Ganduglia-Pirovano MV The non-innocent role of cerium oxide in heterogeneous catalysis: a theoretical perspective. Chem Soc Rev — Phys Chem Chem Phys — Vayssilov GN, Lykhach Y, Migani A et al Support nanostructure boosts oxygen transfer to catalytically active platinum nanoparticles. Nat Mater — Appl Catal B Environ.
Google Scholar. Catal Sci Technol. Fabris S, de Gironcoli S, Baroni S et al Taming multiple valency with density functionals: a case study of defective ceria.
Phys Rev B Pacchioni G First principles calculations on oxide-based heterogeneous catalysts and photocatalysts: problems and advances. Catal Letters — Paier J Hybrid density functionals applied to complex solid catalysts: successes, limitations, and prospects. Chem Commun — Migani A, Vayssilov GN, Bromley ST et al Dramatic reduction of the oxygen vacancy formation energy in ceria particles: a possible key to their remarkable reactivity at the nanoscale.
J Mater Chem — J Phys Chem B — J Mater Chem A — Theor Chem Acc ACS Nano — Phys Rev Lett — J Phys Chem Lett — Chem Phys Lett — Appl Surf Sci — Luches P, Pagliuca F, Valeri S Structural and morphological modifications of thermally reduced cerium oxide ultrathin epitaxial films on Pt CAS Google Scholar. Nanoscale — Phys Rev Lett Nolan M Hybrid density functional theory description of oxygen vacancies in the CeO 2 and surfaces. Solid State Ionics — Xu Z, Buehler MJ Interface structure and mechanics between graphene and metal substrates: a first-principles study.
J Phys: Condens Matter Kullgren J, Hermansson K, Broqvist P Supercharged low-temperature oxygen storage capacity of ceria at the nanoscale. Huang M, Fabris S Role of surface peroxo and superoxo species in the low-temperature oxygen buffering of ceria: density functional theory calculations. Nanostructured Mater — Chem Commun Camb — Langmuir — RSC Adv — Comput Mater Sci — Huang X, Beck MJ Determining the oxidation state of small, hydroxylated metal-oxide nanoparticles with infrared absorption spectroscopy.
Chem Mater — Vayssilov GN, Mihaylov M, St Petkov P et al Reassignment of the vibrational spectra of carbonates, formates, and related surface species on ceria: a combined density functional and infrared spectroscopy investigation. Surf Sci — Huang X, Beck MJ Metal-free low-temperature water—gas shift catalysis over small, hydroxylated ceria nanoparticles. ACS Catal — Stud Surf Sci Catal — Catal T — Kim G Ceria-promoted three-way catalysts for auto exhaust emission control.
Deng W, Flytzani-Stephanopoulos M On the issue of the deactivation of Au-ceria and Pt-ceria water-gas shift catalysts in practical fuel-cell applications. Vecchietti J, Bonivardi A, Xu W et al Understanding the role of oxygen vacancies in the water gas shift reaction on ceria-supported platinum catalysts.
Surf Interface Anal — Fuel Cells — Wiley, Weinheim. This unique book covers the latest surface science studies on model catalysts, including single crystals, non-colloidal nanocatalysts, and nanoparticles in various forms with the control of size, shape and composition. The selected papers present the highlights of recent research in the field of oxide structure. A wide range of oxidic materials, including real oxides, zeolites and layer-structured systems, is considered and described in terms of preparation methods, structural characterization and the relation between active sites, structure and catalytic properties.
The application of the most powerful simulation and physical-chemical techniques show their usefulness in discovering and explaining structural and dynamic properties of complex materials. Moreover the development of sophisticated spectroscopical and analytical techniques are shown to significantly improve the growth of surface oxide science, generating new tools for the knowledge of catalyst structure and reaction mechanisms. An interesting feature is the inclusion of papers which show the mutual roles of experiment and theoretical models.
The chemistry of metals has traditionally been more understood than that of its oxides. As catalytic applications continue to grow in a variety of disciplines, Metal Oxides: Chemistry and Applications offers a timely account of transition-metal oxides TMO , one of the most important classes of metal oxides, in the context of catalysis. The first part of the book examines the crystal and electronic structure, stoichiometry and composition, redox properties, acid-base character, and cation valence states, as well as new approaches to the preparation of ordered TMO with extended structure of texturally defined systems.
The second part compiles some practical aspects of TMO applications in materials science, chemical sensing, analytical chemistry, solid-state chemistry, microelectronics, nanotechnology, environmental decontamination, and fuel cells.
The book examines many types of reactions - such as dehydration, reduction, selective oxidations, olefin metathesis, VOC removal, photo- and electrocatalysis, and water splitting - to elucidate how chemical composition and optical, magnetic, and structural properties of oxides affect their surface reactivity in catalysis.
Drawing insight from leading international experts, Metal Oxides: Chemistry and Applications is a comprehensive and interdisciplinary reference for researchers that may also be used by newcomers as a guide to the field. This book follows the edition of Catalysis by Ceria and Related Materials, which was the first book entirely devoted to ceria and its catalytic properties.
In the ten years since the first edition a massive amount of work has been carried out in the field, and ceria has gained a prominent position in catalysis as one of the most valuable material for several applications.
This second edition covers fundamental and applied aspects of the latest advances in ceria-based materials with a special focus on structural, redox and catalytic features.
Special emphasis is given to nano-engineered and nano-shaped systems which are a key factor in the predictive and rational design of ceria with novel properties. In addition, the book presents recent advances in emerging and traditional large-scale applications of ceria in catalysis, such as the treatment of emissions from mobile sources including diesel and gasoline engines.
The primary readership includes catalysis and material science researchers from academy and industry and postdoctorate and graduate students in chemistry, chemical engineering and physics. This book provides an overview of the latest developments in the field of nanoparticle catalysis.
It not only discusses established topics in detail, but also explores several emerging topics. Catalysis with nanoparticles is expanding exponentially and is attracting significant interest due to the many exciting findings being reported.
Mastering the synthesis, characterization, stabilization and use of these catalysts offers numerous possibilities that far exceed those of classic heterogeneous and homogeneous catalysis.
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